JP3966132B2 - Image processing apparatus and control method thereof - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image processing apparatus and a control method, and more particularly to an image processing apparatus in which a facsimile function device having a power saving function and a host device are connected via a USB interface and a control method thereof.
[0002]
[Prior art]
In recent years, multifunction devices having a plurality of functions have been widely used in one OA device, and space saving and power saving of the OA device have been achieved.
[0003]
For example, there is known a so-called multi-function machine in which a copy, telephone, fax, printer, network function, and the like are installed in one OA device and can perform a plurality of processes.
[0004]
The multi-function device includes a functional device (device device) such as a copy, a fax, a printer, and a network, and a control device (host device) that centrally manages these functional devices. The host device and each device device Are connected via an interface device.
[0005]
By the way, a configuration using a universal serial bus (USB) interface has recently been proposed as an interface for connecting the host device and each device.
[0006]
Now, while a single multifunction device can operate a plurality of functional devices, the power consumption is increased by always operating a plurality of functional devices.
[0007]
Therefore, in general, a multi-function device composed of a host device and each device device, for example, when the user does not use a functional device such as a copy machine, telephone, fax, printer, etc. for a certain period of time It has a power saving function that automatically shifts to a sleep mode that reduces power consumption by supplying a minimum amount of power.
[0008]
In the sleep mode state, for example, when a fax communication incoming signal is input to a functional device such as a fax machine, the fax function device (device device) and the host device automatically shift from the sleep mode to the resume mode. I have.
[0009]
FIG. 11 is a block diagram showing a configuration of a main part of an interface between a conventional host device and a fax function device.
[0010]
The host device 1150 includes a host device (not shown) and a storage device that stores programs and data for controlling the entire functional devices, a power supply device that supplies power to each device device, and the like.
[0011]
The facsimile function device 1110 executes various functions of facsimile operation such as image reading function, facsimile communication excluding printer function, image memory management, user registration and the like.
In order to execute these various functions of the facsimile operation, the facsimile function device 1110 has a ROM for storing a control program (not shown), a RAM (including a nonvolatile raw RAM) for storing a destination dial, a communication record, and the like, and an interface with a communication line. NCU, a modem that modulates and demodulates data, an auxiliary power supply (voltage 3.3 V), and the like. When the facsimile function device is not used for a certain period of time, the facsimile function device 1110 automatically shifts to a sleep mode in which the power consumption is reduced by supplying the minimum power, and when the facsimile function device is used. Has a power saving function for automatically shifting from the sleep mode to the resume mode.
[0012]
As shown in FIG. 11, the host device 1150 includes a host controller 1153 that controls the entire host device 1150 and each interface, a USB controller 1152 that controls a USB interface on the host device 1150 side, a USB connector 1151, and a USB interface. Interface controller 1154 and interface connector 1155 for controlling the interface.
[0013]
The facsimile function device 1110 controls a device interface 1113 that controls the facsimile function device 1110 and each interface, a USB controller 1112 that controls a USB interface on the facsimile function device 1110 side, a USB connector 1111, and a USB interface. An interface controller 1114 and an interface connector 1115 are included.
[0014]
The USB connector 1151 of the host apparatus 1150 and the USB connector 1111 of the facsimile function apparatus 1110 are connected by a USB cable, and the interface connector 1155 of the host apparatus 1150 and the interface connector 1115 of the facsimile function apparatus 1110 are connected by a connector cable. Yes.
[0015]
Then, in the conventional multi-function machine in which the host device 1150 and the facsimile function device 1110 are interface-connected, the host device 1150 instructs the facsimile function device 1110 to perform reset processing, or the facsimile function device 1110 is in the sleep mode (power saving). In the (mode) state, when there is an input such as an incoming fax communication, the sleep mode return notification for canceling the sleep mode and shifting to the normal operation mode is supported using an interface different from the USB interface.
[0016]
[Problems to be solved by the invention]
However, the above-described conventional configuration requires other interface devices and connection cables in addition to the USB interface between the host device 1150 and the facsimile function device 1110, and has problems such as diversion and versatility to other models. It was.
[0017]
The host device 1150 can also issue a reset instruction to the facsimile function device 1110 via the USB interface. However, in this method, when the USB interface hangs up, the host device 1150 sends the facsimile function device 1110 to the facsimile function device 1110. In this case, the reset instruction cannot be issued.
[0018]
Therefore, the present invention provides an image processing apparatus and a control method that enable a reset instruction and a sleep mode transition instruction from the host apparatus to the facsimile function apparatus, a sleep mode return notification from the facsimile function apparatus to the host apparatus, etc. only by the USB interface. The purpose is to do.
[0019]
[Means for Solving the Problems]
  In order to achieve the above object, an invention according to claim 1 is an image processing apparatus having a host device and a facsimile function device, wherein the host device and the facsimile function device are connected via a universal serial bus interface.The facsimile function device switches the data line of the universal serial bus interface to connect to either a high potential or a low potential, and sends a sleep mode return notification to the host device by the switching means. Control means for switching from a low potential to a high potential or a high potential to a low potential, and the host device monitors the potential of the data line, and the potential of the data line is changed from a low potential to a high potential. And detecting means for recognizing a sleep mode return notification from the facsimile function apparatus by detecting that the switch has been made.
[0020]
  The invention of claim 2An image processing apparatus having a host device and a facsimile function device, wherein the host device and the facsimile function device are connected via a universal serial bus interface. The facsimile function device includes a power source, a universal serial bus interface Switching means for switching the power supply line to connect to either the power supply or ground, and control for switching the sleep mode return notification to the host device by switching the power supply line from ground to the power supply. And the host device monitors the potential of the power supply line, and detects the return of the sleep mode from the facsimile function device by detecting that the power supply line is switched from the ground potential to the supply potential of the power supply. With detection means for recognizing And wherein the door.
[0021]
  The invention of claim 3An image processing apparatus having a host device and a facsimile function device, wherein the host device and the facsimile function device are connected via a universal serial bus interface. The host device includes a power source and a power source for the universal serial bus interface. A switching means for switching the line to be connected to either the power source or the ground, and a reset instruction for the facsimile function device is connected to the power source after the power line is connected to the ground for a certain period of time by the switching means. The facsimile function device monitors the potential of the power supply line and detects that the power supply line has been switched to the supply potential of the power supply after having been at a ground potential for a certain period of time. Detection that recognizes the reset instruction from the host device Characterized by comprising the stage.
[0022]
  The invention of claim 4In a control method of an image processing apparatus having a host apparatus and a facsimile function apparatus, and connecting the host apparatus and the facsimile function apparatus via a universal serial bus interface, the facsimile function apparatus has a sleep mode for the host apparatus. The return notification is performed by switching the universal serial bus interface data line to be connected to either a high potential or a low potential by the switching control means, and the host device monitors the potential of the data line by the detection means, A sleep mode return notification from the facsimile function device is recognized by detecting that the potential of the data line is switched from a low potential to a high potential.
[0023]
  The invention of claim 5In a control method of an image processing apparatus having a host apparatus and a facsimile function apparatus, and connecting the host apparatus and the facsimile function apparatus via a universal serial bus interface, the facsimile function apparatus has a sleep mode for the host apparatus. The return notification is performed by switching the universal serial bus interface so that the power line of the universal serial bus interface is connected to either the power source or the ground by the switching control unit, and the host device monitors the potential of the power line by the detecting unit, A sleep mode return notification from the facsimile function device is recognized by detecting that the line potential has been switched.
[0024]
  The invention of claim 6In a control method of an image processing apparatus having a host device and a facsimile function device, wherein the host device and the facsimile function device are connected via a universal serial bus interface, the host device instructs the facsimile function device to reset The universal serial bus interface power line is connected to the ground for a certain period by the switching control means, and then switched so as to be connected to the power source, and the facsimile function device monitors the potential of the power line by the detection means, A reset instruction from the host device is recognized by detecting that the power supply line is switched to the power supply potential after the power supply line has been at a ground potential for a certain period.
[0035]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
[0036]
FIG. 1 is a block diagram illustrating a configuration of a main part of an image processing apparatus and a control method according to the present invention.
[0037]
Although FIG. 1 shows a configuration in which the facsimile function apparatus 110 is connected to the host apparatus 150, the present invention is not limited to this.
[0038]
In FIG. 1, a facsimile function device 110 executes various functions of facsimile operations such as an image reading function, facsimile communication excluding a printer function, image memory management, and user registration.
[0039]
In order to execute these various functions of the facsimile operation, the facsimile function device 110 is connected to a ROM (including a non-illustrated control program) or the like, a RAM (including non-volatile raw RAM) that stores a destination dial, a communication record, etc. It includes devices such as an NCU that provides an interface, a modem that modulates and demodulates data, and an auxiliary power supply (voltage 3.3 V) for power saving.
[0040]
In addition, the facsimile function device 110 has a power saving function that automatically shifts to a sleep mode that reduces power consumption by supplying a minimum power when the facsimile function is not used for a certain period of time. Yes.
[0041]
When an incoming signal for fax communication or the like is input to the facsimile function device 110 in the sleep mode state, the facsimile device 110 has a function of automatically shifting from the sleep mode to the resume mode.
[0042]
Further, the facsimile function device 110 transmits image information received from the telephone line to the host device 150 via USB, and performs fax communication of the transmission destination information and image information received from the host device 150 via USB to the telephone line. Connect, call the destination based on the destination information, and send the image information.
[0043]
The image information received by the facsimile function device 110 via the telephone line is transmitted to the host device 150 via the USB, and is printed by a printer function device (not shown) connected to the host device 150.
[0044]
The image information transmitted from the host apparatus 150 to the facsimile function apparatus 110 via the USB is read by an image reading function apparatus (not shown) connected to the host apparatus 150 and the facsimile function apparatus via the host apparatus 150. 110.
[0045]
As shown in FIG. 1, the configuration of the main part of the facsimile function device 110 according to the first embodiment of the present invention includes a USB connector 111 that is a USB interface port, a USB controller 112 that controls the USB interface, and a facsimile function device. A device controller 113 that controls the entire device 110 is included.
[0046]
The data signal line (D +) of the USB interface has a function of a switch SW120 connected to either the pull-up resistor side 114 or the no-connect side 115. Switching of the switch SW120 is controlled by the USB controller 112. The
[0047]
The switch SW120 pulls up the data signal line (D +) when the data transfer rate is full, and pulls up the data signal line (D−) when the data transfer rate is low.
[0048]
The switch SW120 can be various methods such as a relay method, a transistor or FET circuit method, and the method is not particularly limited.
[0049]
The host device 150 includes a host controller 153 that controls the entire host device 150, a USB controller 152 that controls a host-side USB interface, and a USB connector 151.
[0050]
FIG. 2 is a control flow diagram when the facsimile function apparatus 110 according to the first embodiment performs a sleep mode return notification from the facsimile function apparatus 110 to the host apparatus 150 when the facsimile function apparatus 110 is in the sleep mode.
[0051]
A control method for notifying the host device 150 of a sleep mode return notification for canceling the sleep mode when the facsimile function device 110 is in the sleep mode will be described with reference to FIG.
[0052]
When the facsimile function apparatus 110 is in the sleep mode state, the facsimile function apparatus 110 operates only the minimum necessary facsimile function that can be operated with the minimum power supply to reduce the power consumption.
[0053]
When the facsimile function apparatus 110 detects an incoming image information signal or a hook-off signal via the telephone line in the sleep mode state, this detection signal is transmitted from the device controller 113 to the USB controller 112 (step S200).
[0054]
The USB controller 112 of the facsimile function apparatus 110 connects the SW 120 to the pull-up resistor side 114 based on the detection result of the incoming signal or the hook-off signal (step S201).
[0055]
When the facsimile function device 110 is in the sleep mode, the SW 120 is connected to the no-connect side 115 by the USB controller 112.
[0056]
The USB controller 152 on the host device 150 side is always energized even in the sleep mode, and monitors the data signal line (D +).
[0057]
When the host-side USB controller 152 detects that the data signal line (D +) has been pulled up, it generates a sleep mode return signal and transmits it to the host controller 153 (step S202).
[0058]
The host controller 153 cancels the sleep mode based on the sleep mode return signal transmitted from the USB controller 152 and activates the power source to shift to the normal operation mode (step S203).
[0059]
The above description shows an example in which the data transfer rate of the facsimile function apparatus 110 is full speed.
[0060]
FIG. 3 is a block diagram showing a configuration of a main part according to the present invention as an embodiment 2 in which the data transfer rate of the facsimile function apparatus is low speed.
[0061]
In the invention according to the second embodiment, the function of the switch SW320 connected to either the pull-up resistor side 314 or the no-connect side 315 is attached to the data signal line (D−) of the USB interface of the facsimile function device 310. Switching of the switch SW320 is controlled by the USB controller 312.
[0062]
  That is, in this embodiment, the host device350When the facsimile function device 310 is in the sleep mode state, if it is detected that the signal on the data signal line (D−) is pulled up, it is recognized as a sleep mode return notification.
[0063]
FIG. 4 is a control flow diagram showing a control flow in the second embodiment.
[0064]
Since the operation of the second embodiment is the same as that of the first embodiment except that the data signal line to be pulled up by the facsimile function apparatus 310 is D-, detailed description thereof is omitted.
[0065]
FIG. 5 is a block diagram showing the configuration of the main part of the present invention in another embodiment 3 when the facsimile function apparatus 510 sends a sleep mode return notification to the host apparatus 550 when the facsimile function apparatus 510 is in the sleep mode. FIG.
[0066]
  The facsimile function device 510 according to the third embodiment of the present invention includes a USB connector 511 for transmitting / receiving data to / from the host device 550 via the USB interface, a USB controller 512 for controlling the USB interface, and an auxiliary power source (not shown). DC / DC converter for boosting power supply voltage 3.3V supplied to functional device 510 to USB standard voltage 5.5V516And a device controller 513 for controlling the facsimile function apparatus 510 as a whole.
[0067]
  In this embodiment, the power line (Vbus) of the USB interface of the facsimile function device 510 is a DC / DC converter.516The switch SW520 is connected to either the power supply side (5V) 517 or the ground side 515 provided from, and the switching of the switch SW520 is controlled by the USB controller 512.
[0068]
The switch SW520 can be various methods such as a relay method, a transistor or FET circuit method, and the method is not particularly limited.
[0069]
The host device 550 includes a host controller 553 that controls the entire host device 550, a USB controller 552 that controls the USB interface on the host side, a USB connector 551, and a voltage monitor that monitors voltage changes in the power line (Vbus) of the USB interface. Device 556.
[0070]
FIG. 6 is a control flow diagram in the case where the facsimile function apparatus 510 issues a sleep mode return notification to the host apparatus 550 when the facsimile function apparatus 510 of the present invention is in the sleep mode state in the third embodiment.
[0071]
A control method in the case where the facsimile function device 510 issues a sleep mode return notification to the host device 550 when the facsimile function device 510 is in the sleep mode will be described with reference to FIG.
[0072]
When the facsimile function apparatus 510 detects an incoming image information signal, a hook-off signal, or the like via the telephone line in the sleep mode state, this detection signal is transmitted from the device controller 513 to the USB controller 512 (step S600).
[0073]
The USB controller 512 connects the SW 520 to the power supply side (supply voltage: 5V) 517 supplied from the DC / DC converter 516 based on the detection result of the incoming signal or the hook-off signal (step S601).
[0074]
When the facsimile function device 510 is in the sleep mode, the SW 520 is connected to the ground side 515 by the USB controller 512.
[0075]
  When the SW 520 is connected to the supply voltage side (5V) 517 by the USB controller 512, the voltage monitoring device of the host device 550556Detects a voltage change of the power supply line (Vbus).
[0076]
  Voltage monitoring device556Is always energized even in the sleep mode, and monitors the voltage change of the power supply line (Vbus).
[0077]
  Voltage monitoring device that the voltage of the power supply line (Vbus) has changed from the ground voltage (LOW) to the supply voltage (HIGH)556Is detected, the voltage monitoring device 556 generates a sleep mode cancellation signal and transmits it to the host controller 553.
[0078]
The host controller 553 cancels the sleep mode based on the sleep mode cancel signal and activates the power supply to shift to the normal operation mode.
[0079]
The above description shows an example in which the auxiliary power supply voltage 3.3V supplied to the facsimile function apparatus 510 is boosted to the USB standard power supply line voltage 5V in order to detect the voltage change of the power supply line (Vbus). However, the configuration may be such that the voltage value of the auxiliary power supply voltage 3.3 V of the facsimile function device 510 is used as it is.
[0080]
In this case, the configuration is such that both the facsimile function device 510 and the USB controllers 512 and 552 of the host device 550 can be detected by the power supply line (Vbus) voltage 3.3V.
[0081]
  The DC / DC converter of the facsimile function device 510 is controlled by controlling the power supply line (Vbus) voltage at 3.3V.516Is no longer necessary.
[0082]
In the third embodiment, an example in which the data transfer rate of the facsimile function device 510 is full speed is shown, but the operation is the same in the case of the facsimile function device in which the data transfer rate is low speed.
[0083]
FIG. 7 is a block diagram showing a configuration of a main part according to the present invention of Embodiment 4 when a reset instruction is issued from the host device 750 to the facsimile function device 710.
[0084]
  The facsimile function device 710 according to the present invention of Embodiment 4 includes a USB connector 711 for transmitting and receiving data to and from the host device 750 via the USB interface, and a USB controller for controlling the USB interface.712And a device controller 713 for controlling the facsimile function apparatus 710 as a whole.
[0085]
The host device 750 includes a host controller 753 that controls the entire host device 750, a USB controller 752 and a USB connector 751 that control the USB interface on the host side, and a side (5V) 754 that conducts the power line (Vbus) of the USB interface. And the switch SW 760 connected to either the ground side 755, and the switching of the switch SW 760 is controlled by the USB controller 752.
[0086]
  This switch SW760Various methods such as a relay method, a transistor or FET circuit method are possible, but the method is not particularly limited.
[0087]
FIG. 8 is a control flow diagram when a reset instruction is issued from the host apparatus 750 to the facsimile function apparatus 710 according to the fourth embodiment.
[0088]
A control method when a reset instruction is issued from the host device 750 to the facsimile function device 710 will be described with reference to FIG.
[0089]
Normally, when the host device 750 and the facsimile function device 710 are connected via a USB interface, 5V is supplied from the USB interface power line (Vbus) of the host device 750 to the USB interface power line (Vbus) of the facsimile function device 710. The power supply is up to 500 mA.
[0090]
As shown in FIG. 8, when a reset instruction is issued from the host device 750 to the facsimile function device 710, the USB controller 752 of the host device 750 connects the SW 760 to the ground side 755 for a certain period, and then connects to the conduction side (5V). ) 754 (step S800 / YES, step S801).
[0091]
Normally, when the host device 750 and the facsimile function device 710 are connected via the USB interface, the SW 760 is connected to the conduction side (5V) 754 by the USB controller 752.
[0092]
When the SW 760 is connected to the ground side 755 by the USB controller 752 for a certain period, the voltage value of the power line (Vbus) of the USB interface of the facsimile function device 710 becomes the ground voltage (LOW) for a certain period.
[0093]
The USB controller 712 of the facsimile function apparatus 710 monitors the voltage change of the power line (Vbus) of the USB interface and generates a reset instruction signal when the LOW value is detected for a certain period of time for the voltage of the power line (Vbus). It transmits to 713 (step S802 / YES).
[0094]
Of course, if the USB controller 712 does not have a voltage monitoring function, the voltage change is monitored by the same voltage monitoring device as in FIG. 5, and if a LOW voltage value is detected, a reset signal is transmitted to the device controller 713.
[0095]
The device controller 713 resets the facsimile function device 710 based on the reset instruction signal (step S803).
[0096]
In the fourth embodiment, an example in which the data transfer rate of the facsimile function device 710 is full speed is shown. However, the operation is the same in the case of the facsimile function device in which the data transfer rate is low speed, and the description is omitted. .
[0097]
In FIG. 9, when the facsimile function device 910 is in a normal operation, the host device 950 issues a reset instruction to the facsimile function device 910. When the facsimile function device 910 is in the sleep mode, the facsimile function device 910 sends a sleep mode to the host device 950. It is a block diagram which shows the structure of the principal part of this invention which concerns on Embodiment 5 in the case of performing a return notification.
[0098]
  In the fifth embodiment, the facsimile function device 910 of the present invention includes a USB connector 911 for transmitting / receiving data to / from the host device 950 via the USB interface, and a USB controller for controlling the USB interface.912And a DC / DC converter for boosting the power supply voltage 3.3V supplied to the facsimile function device 910 from an auxiliary power supply (not shown) to the USB standard voltage 5.5V.916And a device controller 913 for controlling the facsimile function apparatus 910 as a whole.
[0099]
  USB interface power line (Vbus) is a DC / DC converter916Power supply provided by (5V)917The switch SW 920 is connected to either the ground side 915 or the ground side 915, and the switching of the switch SW 920 is controlled by the USB controller 912.
[0100]
  The host device 950 includes a host controller 953 that controls the entire host device 950, a USB controller 952 and USB connector 951 that control the USB interface on the host side, and a voltage monitor that monitors voltage changes in the power line (Vbus) of the USB interface. apparatus956And a function of a switch SW960 that connects the power line (Vbus) of the USB interface to either the conducting side (5V) 954 or the grounding side 955. The switching of the switch SW960 is as follows.Host controller 953Controlled by.
[0101]
For the switches SW920 and SW960, various methods such as a relay method, a transistor, and an FET circuit method are possible, but the method is not particularly limited.
[0102]
FIG. 10 shows a reset instruction from the host device 950 to the facsimile function device 910 when the facsimile function device 910 of the fifth embodiment is in normal operation, and from the facsimile function device 910 to the host device when the facsimile function device 910 is in the sleep mode. FIG. 10 is a control flow diagram when a sleep mode return notification is made to 950;
[0103]
A control method when a reset instruction and a sleep mode return notification are performed will be described with reference to FIG.
[0104]
Normally, when the host device 950 and the facsimile function device 910 are connected via a USB interface, 5V is supplied from the USB interface power line (Vbus) of the host device 950 to the USB interface power line (Vbus) of the facsimile function device 910. The power supply is up to 500 mA.
[0105]
  As shown in FIG. 10A, when the facsimile function device 910 is in a normal operation and the host device 950 issues a reset instruction to the facsimile function device 910, the host device 950Host controller 953After connecting SW960 to ground side 955 for a certain period, it connects to conduction side (5V) 954 (step S1000 / YES, step S1001).
[0106]
Normally, when the host device 950 and the facsimile function device 910 are connected via the USB interface, the SW 960 is connected to the conduction side (5V) 954 by the host controller 953.
[0107]
When the SW 960 is connected to the ground side 955 by the host controller 953 for a certain period, the voltage value of the power line (Vbus) of the USB interface of the facsimile function apparatus 910 becomes the ground voltage (LOW) for a certain period.
[0108]
The USB controller 912 of the facsimile function device 910 monitors the voltage change of the power line (Vbus) of the USB interface and generates a reset instruction signal when the voltage of the power line (Vbus) detects a LOW value for a certain period. It transmits to 913 (step S1002).
[0109]
The device controller 913 performs reset processing of the facsimile function device 910 based on the reset instruction signal (step S1003).
[0110]
As shown in FIG. 10B, when the facsimile function apparatus 910 is in the sleep mode state, if the facsimile function apparatus 910 detects an incoming image information signal or a hook-off signal via the telephone line, this detection signal is sent to the device controller 913. To the USB controller 912 (step S1100 / YES).
[0111]
  The USB controller 912 converts the SW 920 into a DC / DC converter based on the detection result of the incoming signal or the hook-off signal.916Is connected to the power supply side (supply voltage: 5V) 917 supplied from the terminal (step S1101).
[0112]
When the facsimile function apparatus 910 is in the sleep mode, the SW 920 is connected to the ground side 915 by the USB controller 912.
[0113]
  With the USB controller 912, the SW 920 is on the supply voltage side (5V)917Connected to the voltage monitoring device of the host device 950956Detects a voltage change of the power supply line (Vbus).
[0114]
  Voltage monitoring device956Is always energized even in the sleep mode, and monitors the voltage change of the power supply line (Vbus).
[0115]
  Voltage monitoring device956When it detects that the voltage of the power supply line (Vbus) has changed from the ground voltage (LOW) to the supply voltage (HIGH), it generates a sleep mode release signal and transmits it to the host controller 953.
[0116]
The host controller 953 cancels the sleep mode based on the sleep mode cancel signal and activates the power supply to shift to the normal operation mode (step S1103). In the above description, in order to detect the voltage change of the power supply line (Vbus), the voltage 3.3V supplied to the facsimile function device 910 is increased to the USB standard power supply line voltage 5V. The configuration may be such that the voltage value of 3.3 V supplied to the facsimile function device 910 is used as it is.
[0117]
In this case, the configuration is such that both the facsimile function device 910 and the USB controllers 912 and 952 of the host device 950 can detect with the power supply line (Vbus) voltage 3.3V.
[0118]
  The DC / DC converter of the facsimile function device 910 is controlled by controlling the power supply line (Vbus) voltage at 3.3V.916Is no longer necessary.
[0119]
In the fifth embodiment, an example in which the data transfer rate of the facsimile function device 910 is full speed is shown, but the operation is the same in the case of the facsimile function device in which the data transfer rate is low speed.
[0120]
【The invention's effect】
As described above, according to the present invention, conventionally, a reset instruction and a sleep mode transition instruction from the host device to the facsimile function device and a sleep mode return notification from the facsimile function device to the host device are sent via an interface other than the USB interface. The control that has been performed can be performed only with the USB interface.
[0121]
This eliminates the need for an interface other than the USB interface, and simplifies and increases versatility of the facsimile function device and the host device.
[0122]
Further, even when the USB interface hangs up, the facsimile function device can be reset, and the M / C can be returned to normal without turning on / off the power.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a configuration of a main part of an image processing apparatus and a control method according to the present invention.
FIG. 2 is a control flow diagram of the first embodiment.
FIG. 3 is a block diagram showing a configuration of a main part according to the present invention of Embodiment 2.
FIG. 4 is a control flowchart of the second embodiment.
FIG. 5 is a block diagram showing a configuration of a main part according to the present invention of Embodiment 3.
FIG. 6 is a control flowchart of the third embodiment.
FIG. 7 is a block diagram showing a configuration of a main part according to the present invention of Embodiment 4.
FIG. 8 is a control flow diagram of the fourth embodiment.
FIG. 9 is a block diagram showing a configuration of a main part according to the present invention of Embodiment 5.
FIG. 10 is a control flow diagram of the fifth embodiment.
FIG. 11 is a block diagram showing a configuration of a main part of interface connection between a conventional host device and a fax function device.
[Explanation of symbols]
110 Facsimile function device
111 USB connector (facsimile function device side)
112 USB controller (facsimile function device side)
113 Device controller
150 Host device
151 USB connector (host device side)
152 USB controller (host device side)
153 Host controller
SW120 switch function

Claims (6)

In an image processing apparatus having a host device and a facsimile function device and connecting the host device and the facsimile function device via a universal serial bus interface,
The facsimile function device
Switching means for switching to connect the data line of the universal serial bus interface to either a high potential or a low potential;
Control means for performing a sleep mode return notification to the host device by switching the data line so that the data line is connected from a low potential to a high potential or from a high potential to a low potential.
Comprising
The host device is
Detection means for monitoring the potential of the data line and recognizing a sleep mode return notification from the facsimile function device by detecting that the potential of the data line is switched from a low potential to a high potential
An image processing apparatus comprising: In an image processing apparatus having a host device and a facsimile function device and connecting the host device and the facsimile function device via a universal serial bus interface,
  The facsimile function device
  Power supply,
  Switching means for switching the universal serial bus interface power supply line to connect to either the power supply or ground;
  Control means for performing sleep mode return notification to the host device by switching the power supply line from ground to connect to the power supply by the switching means.
  Comprising
  The host device is
  Detection means for monitoring the potential of the power supply line and recognizing a sleep mode return notification from the facsimile function device by detecting that the power supply line is switched from a ground potential to a supply potential of the power supply
  An image processing apparatus comprising: In an image processing apparatus having a host device and a facsimile function device and connecting the host device and the facsimile function device via a universal serial bus interface,
  The host device is
  Power supply,
  Switching means for switching the universal serial bus interface power supply line to connect to either the power supply or ground;
  Control means for issuing a reset instruction to the facsimile function apparatus by switching the power supply line to the ground after the power supply line is connected to the ground by the switching means.
  Comprising
  The facsimile function device
  Detection means for monitoring the potential of the power supply line and recognizing a reset instruction from the host device by detecting that the power supply line has been switched to the supply potential of the power supply after having been at the ground potential for a certain period of time
  An image processing apparatus comprising: A host device and a facsimile function device, the host device and the facsimile function In a control method of an image processing apparatus for connecting an apparatus to a universal serial bus interface,
  The facsimile function device
  The sleep mode return notification to the host device is performed by switching so that the data line of the universal serial bus interface is connected to either a high potential or a low potential by a switching control means.
  The host device is
  The data line potential is monitored by detection means, and a sleep mode return notification from the facsimile function device is recognized by detecting that the data line potential has been switched from a low potential to a high potential.
  And a control method for the image processing apparatus. In a method for controlling an image processing apparatus, comprising a host device and a facsimile function device, wherein the host device and the facsimile function device are connected via a universal serial bus interface.
  The facsimile function device
  Switching the sleep mode return notification to the host device by switching the universal serial bus interface power supply line to either a power supply or ground with a switching control means,
  The host device is
  The power supply line potential is monitored by detection means, and the sleep mode return notification from the facsimile function device is recognized by detecting that the power supply line potential has been switched.
  And a control method for the image processing apparatus. In a method for controlling an image processing apparatus, comprising a host device and a facsimile function device, wherein the host device and the facsimile function device are connected via a universal serial bus interface.
  The host device is
  A reset instruction for the facsimile function device is performed by switching the universal serial bus interface power line to ground for a certain period of time by switching control means, and then switching to connect to the power source,
  The facsimile function device
  The potential of the power supply line is monitored by detection means, and the reset instruction from the host device is recognized by detecting that the power supply line has been switched to the power supply potential after the power supply line has been at the ground potential for a certain period.
  And a control method for the image processing apparatus.

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